Electric coupler component
Technical field
This utility model relates to a kind of electric coupler component, is specifically related to a kind of in order to be arranged on circuit board or the electric coupler component being assembled on cable.
Background technology
Electric connector is typically mounted at circuit board, it is used for and butt connector grafting, existing electric connector is man-to-man port connector mostly, if to realize the transmission of two kinds of unlike signals on an electronic device, it is usually separately installed for electric connector on circuit board, this can make have certain interval between two electric coupler components, and this interval makes the volume of circuit board become big;It addition, existing electric connector and the attachment force of circuit board are not very big, electric connector easily comes off from circuit board.
Utility model content
This utility model provides a kind of electric coupler component, and it can make the volume of circuit board diminish.
This utility model provides a kind of electric coupler component, and it makes have stronger attachment force between electric connector and circuit board, so that electric connector is difficult to come off from circuit board.
In order to realize the purpose of this utility model, this utility model by the following technical solutions:
A kind of electric coupler component, including the first adapter and the second adapter of being mutually butted with described first adapter;Described first adapter includes the first insulator, the first conducting terminal being immobilizated on described first insulator and is coated with the first of described first insulator and covers shell;Some described first conducting terminals it are provided with on both sides before and after described first insulator;Described first insulator includes the first pedestal and connects two first hyoplastrons of described first pedestal;Described first conducting terminal has row and is located at the first contact site on described first hyoplastron lateral wall and is revealed in described first pedestal the first weld part away from described first hyoplastron side through described first pedestal;Described second adapter includes the second insulator, the second conducting terminal being immobilizated on described second insulator and is coated with the second of described second insulator and covers shell;Described second insulator includes the second pedestal and connects the second hyoplastron of described second pedestal;In described second hyoplastron, corresponding each described first hyoplastron is respectively equipped with a hyoplastron docking chamber;Before and after described hyoplastron docking chamber, both sides are equipped with some described second conducting terminals;Described second conducting terminal has row and is located at the second contact site that is on the medial wall in described hyoplastron docking chamber and that electrically connect with described first contact site and is revealed in described second pedestal the second weld part away from the side of described second hyoplastron through described second pedestal;On described second insulator fore-and-aft direction, described second weld part is separated at intervals to be clamped in by circuit board between described second weld part;Described second covers shell is plugged in described first and covers in shell.
Wherein in an embodiment, the lateral wall of the described first medial wall and described first pedestal covering shell is affixed;Described first covers shell is provided with the first lug near one end of described first pedestal;Described first lug from described first cover shell away from described first hyoplastron direction extend form;Described first lug is connected with other fastening parts for covering shell by first.
Wherein in an embodiment, described first pedestal be respectively arranged on the left side and the right side the first spacing preiection;Described first covers corresponding each described first spacing preiection on shell is respectively equipped with the first spacing hole;Described first spacing preiection is positioned at described first spacing hole.
Wherein in an embodiment, described first pedestal is provided with at least two limited post away from the side of described first hyoplastron.
Wherein in an embodiment, described second adapter also includes reinforcement by connection part;Described reinforcement by connection part includes the fixed block being fixed in described second pedestal and connects two reinforcing bars of described fixed block;Described reinforcing bar lays respectively at the two ends of described fixed block;Described reinforcing bar includes being positioned at the hiding portion of described second pedestal, being exposed to described second pedestal reinforcing weld part and connect described hiding portion and reinforce the reinforcing connecting portion of weld part away from described second hyoplastron side;Described hiding portion is connected with described fixed block;Before and after described second insulator on direction, two reinforcing weld parts of described reinforcement by connection part are separated at intervals to be clamped in by circuit board between described reinforcing weld part.
Wherein in an embodiment, described second covers shell includes being coated with the second of described second hyoplastron and covers shell body and be arranged on described second and cover the shell body the second lug near described second pedestal one end;Described second lug is affixed with described second pedestal lateral wall.
Wherein in an embodiment, described second lug is provided with the second spacing hole;Described second pedestal described second spacing hole corresponding with on the sidewall that described second lug is affixed is provided with the second spacing preiection being positioned at described second spacing hole.
Wherein in an embodiment, before and after described second hyoplastron, both sides are provided with the through hole identical with described hyoplastron docking chamber;Described through hole is positioned at described second hyoplastron one end away from described second pedestal;The resilient clamp sheet for clamping described first hyoplastron it is provided with in described through hole.
Electric coupler component described in the utility model, it is compared to existing technology: electric coupler component of the present utility model is by arranging two the first hyoplastrons on the first insulator of the first adapter, and two hyoplastrons docking chambeies are set at the second insulator of the second adapter, two the first traditional adapters are made to be combined into a first novel adapter, and make two the second traditional adapters be combined into a first novel adapter, not only save circuit board space, also a saving man-made assembly cost.Additionally, circuit board is carried out clamping position by the second weld part of the second conducting terminal by this utility model, add the bond strength between the second adapter and circuit board, it is to avoid circuit board departs from the second adapter, it is ensured that the electric connection effect between circuit board and the second adapter.
Accompanying drawing explanation
Fig. 1 is the structural representation of the electric coupler component described in this utility model embodiment;
Fig. 2 is the exploded perspective view of the electric coupler component shown in Fig. 1;
Fig. 3 is the assembling schematic diagram of the first insulator shown in Fig. 2 and the first conducting terminal;
Fig. 4 is the structural representation that first shown in Fig. 2 covers shell;
Fig. 5 is the assembling schematic diagram of the second insulator shown in Fig. 2, the second conducting terminal and reinforcement by connection part;
Fig. 6 is that the A-A of Fig. 5 is to sectional view;
Fig. 7 is the structural representation reinforcing connector described in Fig. 5;
Fig. 8 is the structural representation that second described in Fig. 2 covers shell.
In figure:
10, the first adapter;
20, the first insulator;21, the first pedestal;211, the first spacing preiection;212, limited post;22, the first hyoplastron;
30, the first conducting terminal;31, the first contact site;32, the first weld part;
40, first covers shell;41, the first lug;42, the first spacing hole;
50, the second adapter;
60, the second insulator;61, the second pedestal;611, the second spacing preiection;62, the second hyoplastron;621, through hole;622, resilient clamp sheet;623, hyoplastron docking chamber;
70, the second conducting terminal;71, the second contact site;72, the second weld part;
80, second covers shell;81, second covers shell body;82, the second tabs;821, the second spacing hole;83, adherent portion;84, connecting portion is extended;
90, reinforcement by connection part;91, fixed block;92, bar is reinforced;93, portion is hidden;94, weld part is reinforced;95, connecting portion is reinforced;
100, circuit board.
Detailed description of the invention
For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is described more fully.Accompanying drawing gives preferred embodiment of the present utility model.But, this utility model can realize in many different forms, however it is not limited to embodiment described herein.On the contrary, providing the purpose of these embodiments is to make the understanding to disclosure of the present utility model more thorough comprehensively.
As depicted in figs. 1 and 2, present embodiment discloses a kind of electric coupler component, this electric coupler component includes the first adapter 10 and the second adapter 50 being mutually butted with the first adapter 10.
The first conducting terminal 30 and the first of cladding the first insulator 20 that first adapter 10 includes the first insulator 20, be immobilizated on the first insulator 20 covers shell 40;As it is shown on figure 3, be provided with some first conducting terminals 30 before and after the first insulator 20 on both sides;First insulator 20 includes the first pedestal 21 and connects two first hyoplastrons 22 of the first pedestal 21;First conducting terminal 30 has row and is located at the first contact site 31 on the first hyoplastron 22 lateral wall and is revealed in first pedestal 21, first weld part 32 away from the first hyoplastron 22 side through the first pedestal 21.
First pedestal 21 is provided with at least two limited post 212 away from the side of the first hyoplastron 22.Limited post 212 can prevent other parts and the first insulator 20 from contacting, so that the first insulator 20 is difficult to damage because of the impact of other parts.
As shown in Figure 4, the lateral wall of the first medial wall and the first pedestal 21 covering shell 40 is affixed, so that the first insulator 20 will not rock in first covers shell 40;First covers shell 40 is provided with the first lug 41 near one end of the first pedestal 21;First lug 41 from first cover shell 40 away from the first hyoplastron 22 direction extend form;First lug 41 covers shell 40 for realization by first and is connected with other fastening parts.
First pedestal 21 be respectively arranged on the left side and the right side the first spacing preiection 211;First covers corresponding each first spacing preiection 211 on shell 40 is respectively equipped with the first spacing hole 42;First spacing preiection 211 is positioned at the first spacing hole 42.Under the effect of the first spacing preiection 211 and the first spacing hole 42, first can be prevented to cover shell 40 and to slip away the first insulator 20.
The second conducting terminal 70 and the second of cladding the second insulator 60 that second adapter 50 includes the second insulator 60, be immobilizated on the second insulator 60 covers shell 80;As shown in Figure 5 and Figure 6, the second insulator 60 includes the second pedestal 61 and connects the second hyoplastron 62 of the second pedestal 61;In second hyoplastron 62, corresponding each first hyoplastron 22 is respectively equipped with a hyoplastron docking chamber 623;Before and after hyoplastron docking chamber 623, both sides are equipped with some second conducting terminals 70;Second conducting terminal 70 has row and is located at the second contact site 71 that is on the medial wall in hyoplastron docking chamber 623 and that electrically connect with the first contact site 31 and is revealed in second pedestal 61, second weld part 72 away from the side of the second hyoplastron 62 through the second pedestal 61;On the second insulator 60 fore-and-aft direction, the second weld part 72 is separated at intervals to be clamped between the second weld part 72 circuit board 100;Second covers shell 80 is plugged in first and covers in shell 40.By the second weld part 72 of the second conducting terminal 70, circuit board 100 is carried out clamping position, add the bond strength between the second adapter 50 and circuit board 100, circuit board 100 is avoided to depart from the second adapter 50, it is ensured that the electric connection effect between circuit board 100 and the second adapter 50.
As it is shown in fig. 7, reinforcement by connection part 90 includes two reinforcing bars 92 of the fixed block 91 and connection fixing block 91 that are fixed in the second pedestal 61;Reinforce bar 92 and lay respectively at the two ends of fixed block 91;Reinforce bar 92 to include being positioned at the hiding portion 93 of the second pedestal 61, be exposed to the second pedestal 61 reinforcing weld part 94 and connect hiding portion 93 and reinforce the reinforcing connecting portion 95 of weld part 94 away from the second hyoplastron 62 side;Hide portion 93 to be connected with fixed block 91;Before and after the second insulator 60 on direction, two reinforcing weld parts 94 of reinforcement by connection part 90 are separated at intervals to be clamped in by circuit board 100 between reinforcing weld part 84.By two reinforcing weld parts 94 of reinforcement by connection part 90 by circuit board 100 clamping position, further increase circuit board 100 and the bond strength of the second adapter 50, avoid the second weld part 72 to be separated from circuit board 100, thus better assure that the electric connection effect between the second adapter 50 and circuit board 100.
As shown in Figure 8, second covers shell 80 and includes being coated with the second of the second hyoplastron 62 and cover shell body 81 and be arranged on second and cover the shell body 81 second lug 82 near second pedestal 61 one end;First lug 41 is affixed with the second pedestal 61 lateral wall, so that the second insulator 60 does not shakes in second covers shell 80;Second lug 82 includes the adherent portion 83 being affixed with the second pedestal 61 and is connected adherent portion 83 and second and covers the extension connecting portion 84 of shell body 81.In the present embodiment, the first lug 41 has two, and two the second lugs 82 lay respectively at second and cover end before and after shell 80.
Second lug 82 is provided with the second spacing hole 821;Second pedestal 61, second spacing hole 821 corresponding with on the sidewall that adherent portion 83 is affixed is provided with the second spacing preiection 611 being positioned at the second spacing hole 821.Under the effect of the second spacing preiection 611 and the second spacing hole 821, second can be prevented to cover shell 80 and to slip away the second insulator 60.
Before and after second hyoplastron 62, both sides are provided with and dock the identical through hole in chamber 623 621 with hyoplastron;Through hole 621 is positioned at the second hyoplastron 62 one end away from the second pedestal 61;The resilient clamp sheet 622 for clamping the first hyoplastron 22 it is provided with in through hole 621.It is respectively provided with resilient clamp sheet 622 by both sides before and after the second hyoplastron 62, when making the first hyoplastron 22 in the hyoplastron docking chamber 623 inserting the second hyoplastron 62, second hyoplastron 62 can be clamped by resilient clamp sheet 622, so that can realize firmly connection between the first adapter 10 and the second adapter 50.
Electric coupler component of the present utility model is by arranging two the first hyoplastrons 22 on the first insulator 20 of the first adapter 10, and two hyoplastrons docking chambeies 623 are set at the second insulator 60 of the second adapter 50, two the first traditional adapters are made to be combined into a first novel adapter, and make two the second traditional adapters be combined into a first novel adapter, not only save circuit board space, also a saving man-made assembly cost.
Embodiment described above only have expressed a kind of embodiment of the present utility model, and it describes more concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.